Steven R Spurgeon
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Explore the profile of Steven R Spurgeon including associated specialties, affiliations and a list of published articles.
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28
Citations
89
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Recent Articles
11.
Understanding the Electronic Structure Evolution of Epitaxial LaNiFeO Thin Films for Water Oxidation
Wang L, Adiga P, Zhao J, Samarakoon W, Stoerzinger K, Spurgeon S, et al.
Nano Lett
. 2021 Sep;
21(19):8324-8331.
PMID: 34546060
Rare earth nickelates including LaNiO are promising catalysts for water electrolysis to produce oxygen gas. Recent studies report that Fe substitution for Ni can significantly enhance the oxygen evolution reaction...
12.
Matthews B, Sassi M, Barr C, Ophus C, Kaspar T, Jiang W, et al.
Nano Lett
. 2021 Jun;
21(12):5353-5359.
PMID: 34110157
Mastery of order-disorder processes in highly nonequilibrium nanostructured oxides has significant implications for the development of emerging energy technologies. However, we are presently limited in our ability to quantify and...
13.
Kaspar T, Spurgeon S, Matthews B, Bowden M, Heald S, Wang L, et al.
J Phys Condens Matter
. 2021 May;
33(31).
PMID: 34038894
The titanomagnetites (FeTiO,⩽ 1) are a family of reducible spinel-structure oxides of interest for their favorable magnetic, catalytic, and electrical transport properties. To understand the stability of the system during...
14.
Blanchet M, Heath J, Kaspar T, Matthews B, Spurgeon S, Bowden M, et al.
J Phys Condens Matter
. 2021 Jan;
33(12):124002.
PMID: 33438585
Recent investigations on spinel CoMnO have shown its potential for applications in water splitting and fuel cell technologies as it exhibits strong catalytic behavior through oxygen reduction reactivity. To further...
15.
Blanchet M, Heath J, Kaspar T, Matthews B, Spurgeon S, Bowden M, et al.
J Phys Condens Matter
. 2020 Dec;
PMID: 33348322
Recent investigations on spinel CoMnOhave shown its potential for applications in water splitting and fuel cell technologies as it exhibits strong catalytic behavior through oxygen reduction reactivity. To further understand...
16.
Spurgeon S, Ophus C, Jones L, Petford-Long A, Kalinin S, Olszta M, et al.
Nat Mater
. 2020 Oct;
20(3):274-279.
PMID: 33106651
No abstract available.
17.
Wang L, Yang Z, Bowden M, Freeland J, Sushko P, Spurgeon S, et al.
Adv Mater
. 2020 Oct;
32(45):e2005003.
PMID: 33006412
Creating new functionality in materials containing transition metals is predicated on the ability to control the associated charge states. For a given transition metal, there is an upper limit on...
18.
Popel A, Spurgeon S, Matthews B, Olszta M, Tan B, Gouder T, et al.
ACS Appl Mater Interfaces
. 2020 Aug;
12(35):39781-39786.
PMID: 32805849
Our present understanding of surface dissolution of nuclear fuels such as uranium dioxide (UO) is limited by the use of nonlocal characterization techniques. Here we discuss the use of state-of-the-art...
19.
Scafetta M, Kaspar T, Bowden M, Spurgeon S, Matthews B, Chambers S
ACS Omega
. 2020 Mar;
5(7):3240-3249.
PMID: 32118139
We report on the structural and optical properties of FeCrO epitaxial films grown by molecular beam epitaxy on MgAlO (001) as a function of δ (average cation valence). The average...
20.
Spurgeon S, Sassi M, Ophus C, Stubbs J, Ilton E, Buck E
Proc Natl Acad Sci U S A
. 2019 Aug;
116(35):17181-17186.
PMID: 31399548
Oxygen defects govern the behavior of a range of materials spanning catalysis, quantum computing, and nuclear energy. Understanding and controlling these defects is particularly important for the safe use, storage,...